Cracking of 2.25Cr–1.0Mo steel tube/stationary tube-sheet weldment of a heat-exchanger

The premature failure of a horizontal heat-exchanger, which occurred after service exposure at 580 °C for 50,000 h, revealed the occurrence of extensive through-thickness cracking in approximately 40% of the tube/stationary tube-sheet welds. Additionally, the internal surface of the welded joint fea...

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Bibliographic Details
Published in:Engineering failure analysis 2008-09, Vol.15 (6), p.695-710
Main Authors: Azevedo, C.R.F., Beneduce Neto, F., Brandi, S.D., Tschiptschin, A.P.
Format: Article
Language:English
Subjects:
2.25Cr–1.0Mo steel
Heat-exchanger
Intergranular oxidation
Transversal cracking
Welding
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Summary:The premature failure of a horizontal heat-exchanger, which occurred after service exposure at 580 °C for 50,000 h, revealed the occurrence of extensive through-thickness cracking in approximately 40% of the tube/stationary tube-sheet welds. Additionally, the internal surface of the welded joint featured intensive secondary intergranular cracking (up to 250 μm deep), preferential formation of a 150 μm thick layer of (Fe,Cr) 3O 4 and internal intergranular oxidation (40 μm deep). The welded region also showed intense carbon pick-up and, as consequence, severe precipitation of intergranular M 7C 3 and M 23C 6 carbides. The fracture surface was composed of two distinct regions: a “planar” region of 250 μm, formed due to the stable crack growth along by the intergranular oxidation; and a slant region with radial marks, formed by the fast crack growth along the network of intergranular carbides. The association of intergranular oxidation pre-cracks with microstructural embrittlement promoted the premature failure, which took place by an overload mechanism, probably due to the jamming of the floating tube-sheet during the maintenance halt (cooling operation).
ISSN:1350-6307
1873-1961
DOI:10.1016/j.engfailanal.2007.06.013